GGGenome Help | Japanese

Database:

Max number of mismatches/gaps mismatches : (no more than 25% of the query length)
Search for: both strand plus strand minus strand

2025-04-08 08:31:20, GGGenome : DDBJ release 134.0 (Mar, 2024)

Summary:

Results:

Matches are highlighted with blue background. Mismatches and indels are marked in red.

Sequence 2155 from Patent EP2148885.
HI531183.1:127-146
GTCGTGAAGGCCAAGCTTGTTTCCAAGATC127GCCGAGAAGAAGATCAAGGAGGCAGGTGGAGCCGTCGTTCTCACCGCCTG
Sequence 2155 from patent US 9271455.
HL704518.1:127-146
GTCGTGAAGGCCAAGCTTGTTTCCAAGATC127GCCGAGAAGAAGATCAAGGAGGCAGGTGGAGCCGTCGTTCTCACCGCCTG
Sequence 3107 from patent US 9890389.
MI431759.1:502-521
GTGGTGAAGGCCAAGCTGGTGTCGAAGATC502GCCGAGAAGAAGATCAAGGAGGCCGGCGGCGCCGTCGTGCTCACCGCTTA
Sequence 3116 from patent US 9890389.
MI431768.1:475-494
GTCGTGAAGGCCAAGCTCGTCTCTAAGATA475GCCGAGAAGAAGATCAAGGAAGCCGGTGGTGCCGTTGTTCTCACCGCCTA
Sequence 3128 from patent US 9890389.
MI431780.1:417-436
GTCGTGAAGGCCAAGCTCGTCTCCAAGATC417GCCGAGAAGAAGATCAAGGAGGCTGGCGGCGCCGTCGTGCTCACGGCCTG
Sequence 3149 from patent US 9890389.
MI431801.1:430-449
GTCGTCAAGGCCAAGCTCATTTCTAAGACC430GCCGAGAAGAAGATCAAGGAGGCCGGCGGTGCCGTCATCCTCACCGCTTA
Sequence 3154 from patent US 9890389.
MI431806.1:586-605
GTAGTCAAGGCCAAGCTTGTTTCCAAGCTG586GCCGAGAAGAAGATCAAGGAGGCTGGAGGTGCAGTCTTGTTGACCGCCTG
Sequence 3157 from patent US 9890389.
MI431809.1:491-510
GTGGTGAAGGCCAAGCTGATTTCAAAGACC491GCCGAGAAGAAGATCAAGGAGGCTGGTGGCGCCGTCGTGCTCACCGCTTA
Sequence 3158 from patent US 9890389.
MI431810.1:437-456
GTGGTGAAGGCCAAGCTGATTTCAAAGACC437GCCGAGAAGAAGATCAAGGAGGCTGGTGGCGCCGTCGTGCTCACCGCTTA
Sequence 3160 from patent US 9890389.
MI431812.1:494-513
GTCGTGAAGGCGAAGCTCGTCTCCAAGGTC494GCCGAGAAGAAGATCAAGGAAGCCGGAGGTGCTGTTGTTCTTACTGCTTA
Sequence 3162 from patent US 9890389.
MI431814.1:539-558
GTTGTGAAGGCCAAGCTGATTTCTAAGACC539GCCGAGAAGAAGATCAAGGAGGCTGGTGGAGCCGTCGTGCTCACTGCTTA
Sequence 3182 from patent US 9890389.
MI431834.1:412-431
GTTGTCAAGGCCAAGCTTGTGTCGAAGACC412GCCGAGAAGAAGATCAAGGAGGCCGGCGGCGCCGTCGTTCTCACCGCTTA
Sequence 3190 from patent US 9890389.
MI431842.1:436-455
GTCGTCAAGGCCAAGATCGTGTCCAAGAAC436GCCGAGAAGAAGATCAAGGAGGCCGGCGGCGCCGTCGTGCTCACCGCTTA
Sequence 3193 from patent US 9890389.
MI431845.1:446-465
GTCGTGAAGGCGAAGCTCGTCTCCAAGGTC446GCCGAGAAGAAGATCAAGGAAGCCGGAGGTGCTGTTGTTCTTACTGCTTA
Sequence 3199 from patent US 9890389.
MI431851.1:499-518
GTTGTGAAGGCCAAGCTGATTTCTAAGACC499GCCGAGAAGAAGATCAAGGAGGCTGGCGGAGCCGTCGTGCTCACCGCTTA
Sequence 3200 from patent US 9890389.
MI431852.1:423-442
GTTGTGAAGACCAAGCTGATCTCCAAGGTC423GCCGAGAAGAAGATCAAGGAGGCTGGTGGCGCCGTCGTGCTCACCGCCTA
Sequence 3204 from patent US 9890389.
MI431856.1:378-397
GTAGTCAAGGCCAAGCTTATTTCGAAGATT378GCCGAGAAGAAGATCAAGGAAGCTGGTGGCGCCGTCGTTCTTACTGCTTA
Sequence 3208 from patent US 9890389.
MI431860.1:404-423
GTTGTGAAGGCTAAGCTTATTTCGAAGATT404GCCGAGAAGAAGATCAAGGAGGCTGGTGGCGCCGTTGTGCTTACTGCCTA
Sequence 3212 from patent US 9890389.
MI431864.1:430-449
GTTGTCAAAGCCAAACTCATTTCCAAATTG430GCCGAGAAGAAGATCAAGGAAGCTGGCGGCGCTGTTCTGCTGACCGCCTG
Sequence 3223 from patent US 9890389.
MI431875.1:384-403
GTGGTGAAGGCCAAGCTCGTCTCCAAGATC384GCCGAGAAGAAGATCAAGGAAGCCGGCGGTTCCGTCGTCCTCACTGCCTG
Sequence 3228 from patent US 9890389.
MI431880.1:399-418
GTTGTTAAAGCTAAACTTATTTCAAAGAAT399GCCGAGAAGAAGATCAAGGAAGCTGGTGGTGCTGTTCTACTTACTGCTTA
Sequence 3248 from patent US 9890389.
MI431900.1:427-446
GTGGTGAAGGCAAAGCTGGTGTCTAAGAAC427GCCGAGAAGAAGATCAAGGAGGCCGGTGGAGCCGTCGTGCTCACCGCCTA
Sequence 3251 from patent US 9890389.
MI431903.1:422-441
GTTGTCAAGGCGAAGCTTATCTCTAAGATC422GCCGAGAAGAAGATCAAGGAGGCCGGTGGCTCGGTTGTTCTTACCGCTTA
Sequence 3255 from patent US 9890389.
MI431907.1:442-461
GTGGTAAAGGCTAAGCTCGTTTCGAAGATC442GCCGAGAAGAAGATCAAGGAGGCCGGCGGCGCTGTTCTTCTCACCGCCTA
Sequence 3279 from patent US 9890389.
MI431931.1:599-618
GTTGTGAAGGCCAAGCTTATTTCTAAGCTG599GCCGAGAAGAAGATCAAGGAGGCAGGCGGGGCAGTCATGTTGACCGCCTG
Sequence 3334 from patent US 9890389.
MI431986.1:451-470
GTCGTCAAGGCTAAGCTTATTTCCAAGGTC451GCCGAGAAGAAGATCAAGGAGAACGGTGGCGCCGTCCTTCTCACCGCTTA
Sequence 3340 from patent US 9890389.
MI431992.1:453-472
GTCGTGAAGGCCAAGCTTGTTTCCAAGATC453GCCGAGAAGAAGATCAAGGAGGCCGGTGGAGCCGTCGTTCTCACCGCCTG
Sequence 3341 from patent US 9890389.
MI431993.1:499-518
GTCGTGAAGGCCAAGCTTGTTTCCAAGATC499GCCGAGAAGAAGATCAAGGAGGCCGGTGGAGCCGTCGTTCTCACCGCCTG
Sequence 3349 from patent US 9890389.
MI432001.1:505-524
GTCGTGAAGGCGAAGCTCGTGTCTAAGCTC505GCCGAGAAGAAGATCAAGGAGGCCGGCGGTGCGGTCGTGCTCGCCGCCTG
Sequence 3352 from patent US 9890389.
MI432004.1:458-477
GTTATTAAGGCCAAGCTCATATCTAAAATT458GCCGAGAAGAAGATCAAGGAGAACGGCGGAGCGGTTGTTCTCACTGCATA
Sequence 3353 from patent US 9890389.
MI432005.1:461-480
GTTATTAAGGCCAAGCTCATATCTAAAATT461GCCGAGAAGAAGATCAAGGAGAACGGCGGAGCGGTTGTTCTCACTGCATA
Sequence 3383 from patent US 9890389.
MI432035.1:413-432
GTCGTCAAGGCCAAGCTCGTCTCCAAGACC413GCCGAGAAGAAGATCAAGGAGGCCGGTGGTGCTGTGGTTCTCACCGCTTA
Sequence 3395 from patent US 9890389.
MI432047.1:459-478
GTTGTGAAGGCCAAGCTCATTTCTAAGACC459GCCGAGAAGAAGATCAAGGAGGCTGGTGGTGCCGTCGTGCTCACTGCCTA
Sequence 3403 from patent US 9890389.
MI432055.1:472-491
GTCGTCAAGGCCAAGTTTTTCTCGAAGCTC472GCCGAGAAGAAGATCAAGGACGCCGGTGGTGCCGTCATTTTGACTGCCTA
Sequence 3412 from patent US 9890389.
MI432064.1:445-464
GTTGTCAAGGCCAAGCTCGTTTCCAAGATC445GCCGAGAAGAAGATCAAGGAGGCTGGTGGCGCCGTTCTCCTCACCGCTTG
Sequence 3418 from patent US 9890389.
MI432070.1:2512-2531
GTTGTGAAGGCCAAGTTCTTCTCCAAGCTC2512GCCGAGAAGAAGATCAAGGAGGCCGGCGGTGCGGTCATTCTCACCGCTTA
Sequence 3420 from patent US 9890389.
MI432072.1:449-468
GTTGTGAAGGCCAAGTTCTTCTCCAAGCTC449GCCGAGAAGAAGATCAAGGAGGCCGGCGGTGCGGTCATTCTCACCGCTTA
Sequence 3438 from patent US 9890389.
MI432090.1:415-434
GTTGTCAAGGCCAAGTTTGTTTCAAAGACG415GCCGAGAAGAAGATCAAGGAAGCCGGTGGTGCTGTTCTTCTTACTGCTTA
Sequence 3446 from patent US 9890389.
MI432098.1:477-496
GTTGTCAAGGCCAAGCTTGTTTCCAAATTG477GCCGAGAAGAAGATCAAGGAGGCCGGCGGTGCTGTTGTTTTGACTGCCTG
Sequence 3107 from patent US 10597672.
MO986681.1:502-521
GTGGTGAAGGCCAAGCTGGTGTCGAAGATC502GCCGAGAAGAAGATCAAGGAGGCCGGCGGCGCCGTCGTGCTCACCGCTTA
Sequence 3116 from patent US 10597672.
MO986690.1:475-494
GTCGTGAAGGCCAAGCTCGTCTCTAAGATA475GCCGAGAAGAAGATCAAGGAAGCCGGTGGTGCCGTTGTTCTCACCGCCTA
Sequence 3128 from patent US 10597672.
MO986702.1:417-436
GTCGTGAAGGCCAAGCTCGTCTCCAAGATC417GCCGAGAAGAAGATCAAGGAGGCTGGCGGCGCCGTCGTGCTCACGGCCTG
Sequence 3149 from patent US 10597672.
MO986723.1:430-449
GTCGTCAAGGCCAAGCTCATTTCTAAGACC430GCCGAGAAGAAGATCAAGGAGGCCGGCGGTGCCGTCATCCTCACCGCTTA
Sequence 3154 from patent US 10597672.
MO986728.1:586-605
GTAGTCAAGGCCAAGCTTGTTTCCAAGCTG586GCCGAGAAGAAGATCAAGGAGGCTGGAGGTGCAGTCTTGTTGACCGCCTG
Sequence 3157 from patent US 10597672.
MO986731.1:491-510
GTGGTGAAGGCCAAGCTGATTTCAAAGACC491GCCGAGAAGAAGATCAAGGAGGCTGGTGGCGCCGTCGTGCTCACCGCTTA
Sequence 3158 from patent US 10597672.
MO986732.1:437-456
GTGGTGAAGGCCAAGCTGATTTCAAAGACC437GCCGAGAAGAAGATCAAGGAGGCTGGTGGCGCCGTCGTGCTCACCGCTTA
Sequence 3160 from patent US 10597672.
MO986734.1:494-513
GTCGTGAAGGCGAAGCTCGTCTCCAAGGTC494GCCGAGAAGAAGATCAAGGAAGCCGGAGGTGCTGTTGTTCTTACTGCTTA
Sequence 3162 from patent US 10597672.
MO986736.1:539-558
GTTGTGAAGGCCAAGCTGATTTCTAAGACC539GCCGAGAAGAAGATCAAGGAGGCTGGTGGAGCCGTCGTGCTCACTGCTTA
Sequence 3182 from patent US 10597672.
MO986756.1:412-431
GTTGTCAAGGCCAAGCTTGTGTCGAAGACC412GCCGAGAAGAAGATCAAGGAGGCCGGCGGCGCCGTCGTTCTCACCGCTTA
Sequence 3190 from patent US 10597672.
MO986764.1:436-455
GTCGTCAAGGCCAAGATCGTGTCCAAGAAC436GCCGAGAAGAAGATCAAGGAGGCCGGCGGCGCCGTCGTGCTCACCGCTTA
Zantedeschia aethiopica EST, clone B-1-13.
AJ700561.1:259-278
GTGGTGAAGGCCAAGCTCATCTCCAAGATC259GCCGAGAAGAAGATCAAGGAGGCCGGTGGCGCCGTCGTCCTCACCGCCTG
Zantedeschia aethiopica EST, clone C-8-13.
AJ700639.1:259-278
GTGGTGAAGGCCAAGCTCATCTCCNAGATC259GCCGAGAAGAAGATCAAGGAGGCCGGTGGCGCCGTCGTCCTCACCGCCTG
Marchantia polymorpha cDNA sequence:M01-007, 5' end, expressed in immature male sexual organ, antheridium.
AU081619.1:473-492
GTCGTCAAGGCCAAGTTTTTCTCGAAGCTC473GCCGAGAAGAAGATCAAGGACGCCGGTGGTGCCGTCATTTTGACTGCCTA
Lolium multiflorum cDNA clone:HL010E12-5.
AU248515.1:56-75
GTCGTCCGCGCCCGCTACTTCAGCGCCGAG56GCCGAGAAGAAGATCAAGGAGGCTGGTGGTGTTGTCCAGCTCGTCGCATA
sd66g12.y1 Gm-c1008 Glycine max cDNA clone GENOME SYSTEMS CLONE ID: Gm-c1008-1343 5' similar to TR:O82529 O82529 RIBOSOMAL PROTEIN L27A, mRNA sequence.
AW101627.1:64-83
GTCGTGAAGGCCAAGCTTGTTTCCAAGATC64GCCGAGAAGAAGATCAAGGAGGCCGGTGGAGCCGTCGTTCTCACCGCCTG
sah54e07.y1 Gm-c1036 Glycine max cDNA clone GENOME SYSTEMS CLONE ID: Gm-c1036-5221 5' similar to TR:O82529 O82529 RIBOSOMAL PROTEIN L27A, mRNA sequence.
BI424665.1:411-430
GTCGTGAAGGCCAAGCTTGTTTCCAAGATC411GCCGAGAAGAAGATCAAGGAGGCCGGTGGAGCCGTCGTTCTCACCGCCTG
Marchantia polymorpha cDNA clone:lwa12g08, 5' end.
BJ841408.1:416-435
GTCGTCAAGGCCAAGTTTTTCTCGAAGCTC416GCCGAGAAGAAGATCAAGGACGCCGGTGGTGCCGTCATTTTGACTGCCTA
Marchantia polymorpha cDNA clone:lwa16e01, 5' end.
BJ842923.1:118-137
GTCGTCAAGGCCAAGTTTTTCTCGAAGCTC118GCCGAGAAGAAGATCAAGGACGCCGGTGGTGCCGTCATTTTGACTGCCTA
Marchantia polymorpha cDNA clone:lwa25f17, 5' end.
BJ846380.1:416-435
GTCGTCAAGGCCAAGTTTTTCTCGAAGCTC416GCCGAGAAGAAGATCAAGGACGCCGGTGGTGCCGTCATTTTGACTGCCTA
Marchantia polymorpha cDNA clone:lwa29o09, 5' end.
BJ848051.1:294-313
GTCGTCAAGGCCAAGTTTTTCTCGAAGCTC294GCCGAGAAGAAGATCAAGGACGCCGGTGGTGCCGTCATTTTGACTGCCTA
Marchantia polymorpha cDNA clone:lwa30g05, 5' end.
BJ848441.1:440-459
GTCGTCAAGGCCAAGTTTTTCTCGAAGCTC440GCCGAGAAGAAGATCAAGGACGCCGGTGGTGCCGTCATTTTGACTGCCTA
Marchantia polymorpha cDNA clone:lwa33m23, 5' end.
BJ849564.1:430-449
GTCGTCAAGGCCAAGTTTTTCTCGAAGCTC430GCCGAGAAGAAGATCAAGGACGCCGGTGGTGCCGTCATTTTGACTGCCTA
Marchantia polymorpha cDNA clone:lwa36j09, 5' end.
BJ850716.1:428-447
GTCGTCAAGGCCAAGTTTTTCTCGAAGCTC428GCCGAGAAGAAGATCAAGGACGCCGGTGGTGCCGTCATTTTGACTGCCTA
Marchantia polymorpha cDNA clone:lwa37i12, 5' end.
BJ851173.1:452-471
GTCGTCAAGGCCAAGTTTTTCTCGAAGCTC452GCCGAGAAGAAGATCAAGGACGCCGGTGGTGCCGTCATTTTGACTGCCTA
Marchantia polymorpha cDNA clone:lwa38d23, 5' end.
BJ851417.1:444-463
GTCGTCAAGGCCAAGTTTTTCTCGAAGCTC444GCCGAGAAGAAGATCAAGGACGCCGGTGGTGCCGTCATTTTGACTGCCTA
Marchantia polymorpha cDNA clone:lwa3h23, 5' end.
BJ852168.1:421-440
GTCGTCAAGGCCAAGTTTTTCTCGAAGCTC421GCCGAGAAGAAGATCAAGGACGCCGGTGGTGCCGTCATTTTGACTGCCTA
Marchantia polymorpha cDNA clone:lwa6d06, 5' end.
BJ856632.1:430-449
GTCGTCAAGGCCAAGTTTTTCTCGAAGCTC430GCCGAGAAGAAGATCAAGGACGCCGGTGGTGCCGTCATTTTGACTGCCTA
Marchantia polymorpha cDNA clone:lwb31j03, 5' end.
BJ864936.1:442-461
GTCGTCAAGGCCAAGTTTTTCTCGAAGCTC442GCCGAGAAGAAGATCAAGGACGCCGGTGGTGCCGTCATTTTGACTGCCTA
Marchantia polymorpha cDNA clone:lwb38a20, 5' end.
BJ867332.1:392-411
GTCCTCCGCACCAAGTTCATCACCAAGAAG392GCCGAGAAGAAGATCAAGGAGGCCGGTGGAGTCATCGAGATCACCGCTTA
Marchantia polymorpha cDNA clone:lwb5p22, 5' end.
BJ871885.1:374-393
GTCGTCAAGGCCAAGTTTTTCTCGAAGCTC374GCCGAGAAGAAGATCAAGGACGCCGGTGGTGCCGTCATTTTGACTGCCTA
Marchantia polymorpha cDNA clone:lwb9m09, 5' end.
BJ872929.1:411-430
GTCGTCAAGGCCAAGTTTTTCTCGAAGCTC411GCCGAGAAGAAGATCAAGGACGCCGGTGGTGCCGTCATTTTGACTGCCTA
sak60d04.y1 Gm-c1036 Glycine max cDNA clone SOYBEAN CLONE ID: Gm-c1036-7448 5' similar to TR:O82529 O82529 RIBOSOMAL PROTEIN L27A, mRNA sequence.
BM521640.1:406-425
GTCGTGAAGGCCAAGCTTGTTTCCAAGATC406GCCGAGAAGAAGATCAAGGAGGCCGGTGGAGCCGTCGTTCTCACCGCC
EST 1146 Green Grape berries Lambda Zap II Library Vitis vinifera cDNA clone GT172C04 3', mRNA sequence.
BQ798977.1:435-454
GTCGTGAAGGCCAAGCTCGTCTCTAAGATA435GCCGAGAAGAAGATCAAGGAAGCCGGAGGTGCCGTTGTTCTCACCGCCTA
PP_LEa0002I18f Peach developing fruit mesocarp Prunus persica cDNA clone PP_LEa0002I18f, mRNA sequence.
BU039430.1:458-477
GTTGTGAAGGCCAAGCTGATTTCTAAGACC458GCCGAGAAGAAGATCAAGGAGGCTGGCGGAGCCGTCGTGCTCACCGCTTA
N046H04 Populus bark cDNA library Populus tremula x Populus tremuloides cDNA 5 prime, mRNA sequence.
BU815809.1:413-432
GTTGTCCGTGCCCGCTACGTCTCTGCTGAG413GCCGAGAAGAAGATCAAGGAGGCTGGTGGTGTTGTCCAGCTCGTCGCATA
Glycine max cDNA clone: GMFL01-03-E05, 5'end, similar to 60S ribosomal protein L27A.
BW651991.1:411-430
GTCGTGAAGGCCAAGCTTGTTTCCAAGATC411GCCGAGAAGAAGATCAAGGAGGCCGGTGGAGCCGTCGTTCTCACCGCCTG
Glycine max cDNA clone: GMFL01-21-K08, 5'end, similar to 60S ribosomal protein L27A.
BW663359.1:450-469
GTCGTGAAGGCCAAGCTTGTTTCCAAGATC450GCCGAGAAGAAGATCAAGGAGGCCGGTGGAGCCGTCGTTCTCACCGCCTG
Glycine max cDNA clone: GMFL01-24-G04, 5'end, similar to 60S ribosomal protein L27A.
BW665253.1:450-469
GTCGTGAAGGCCAAGCTTGTTTCCAAGATC450GCCGAGAAGAAGATCAAGGAGGCCGGTGGAGCCGTCGTTCTCACCGCCTG
Marchantia polymorpha immature archegonia cDNA, clone F01M021.
C96220.1:419-438
GTCGTCAAGGCCAAGTTTTTCTCGAAGCTC419GCCGAGAAGAAGATCAAGGACGCCGGTGGTGCCGTCATTTTGACTGCCTA
Marchantia polymorpha immature archegonia cDNA, clone F01M030.
C96225.1:419-438
GTCGTCAAGGCCAAGTTTTTCTCGAAGCTC419GCCGAGAAGAAGATCAAGGACGCCGGTGGTGCCGTCATTTTGACTGCCTA
sat17e04.y1 Gm-c1036 Glycine max cDNA clone SOYBEAN CLONE ID: Gm-c1036-14024 5' similar to TR:O82529 O82529 RIBOSOMAL PROTEIN L27A, mRNA sequence.
CA801770.1:433-452
GTCGTGAAGGCCAAGCTTGTTTCCAAGATC433GCCGAGAAGAAGATCAAGGAGGCCGGTGGAGCCGTCGTTCTCACCGCCTG
PCS02019X5F Scarlet Runner Bean Suspensor Region TriplEx2 Phaseolus coccineus cDNA 5' similar to 60S ribosomal protein L27A, mRNA sequence.
CA904474.1:453-472
GTCGTCAAGGCCAAGCTCGTCTCCAAGATC453GCCGAGAAGAAGATCAAGGAGGCTGGAGGCGCTGTTGTACTCACCGCTTG
PCSC08713 Scarlet Runner Bean Suspensor Region TriplEx2 Phaseolus coccineus cDNA 5' similar to 60S ribosomal protein L27A, mRNA sequence.
CA904475.1:453-472
GTCGTCAAGGCCAAGCTCGTCTCCAAGATC453GCCGAGAAGAAGATCAAGGAGGCTGGAGGCGCTGTTGTACTCACCGCTTG
PCSC14438 Scarlet Runner Bean Suspensor Region TriplEx2 Phaseolus coccineus cDNA 5' similar to 60S ribosomal protein L27A, mRNA sequence.
CA904476.1:170-189
GTCGTCAAGGCCAAGCTCGTCTCCNAGATC170GCCGAGAAGAAGATCAAGGAGGCTGGAGGCGCTGTTGTACTCACCGCTTG
PCSC14037 Scarlet Runner Bean Suspensor Region TriplEx2 Phaseolus coccineus cDNA 5' similar to 60S ribosomal protein L27A, mRNA sequence.
CA904510.1:456-475
GTCGTCAAGGCCAAGCTCGTCTCCAAGATC456GCCGAGAAGAAGATCAAGGAGGCTGGAGGGCGCTGTTGTACTCACCGCTT
hj75b12.g1 Hedyotis terminalis flower - Stage 2 (NYBG) Hedyotis terminalis cDNA clone hj75b12, mRNA sequence.
CB078995.1:443-462
GTAGTTAAGGCTAAACTTGTTTCCAAGATT443GCCGAGAAGAAGATCAAGGAGGCTGGTGGTGCTGTCGTGCTCACTGCTTA
gz22g03.g1 Hedyotis centranthoides flower - Stage 2 (NYBG) Kadua centranthoides cDNA clone gz22g03, mRNA sequence.
CB085363.1:402-421
GTAGTTAAGGCTAAACTTGTTTCCAAGATT402GCCGAGAAGAAGATCAAGGAGGCTGGTGGTGCTGTCGTGCTCACTGCTTA
V-B-118H06 VAN-Baker-1 Vitis aestivalis cDNA clone V-B-118H06 5', mRNA sequence.
CB289590.1:437-456
GTCGTGAAGGCCAAGCTCGTCTCTAAGATA437GCCGAGAAGAAGATCAAGGAAGCCGGTGGTGCCGTTGTTCTCACCGCCTA
UTPPI006_E11 USDA-Tifton Peanut Immature Pod cDNA Library (UTPP) Arachis hypogaea cDNA clone UTPPI006_E11 5', mRNA sequence.
CD038392.1:422-441
GTCGTCAAGGCTAAGCTTATTTCCAAGGTC422GCCGAGAAGAAGATCAAGGAGAACGGTGGCGCCGTCCTTCTCACCGCTTA
T143C01930F (FHIG:C) Axenic plate culture Betula pendula cDNA 5', mRNA sequence.
CD277132.1:406-425
GTTGTTCGCGCCCGCTACGTCAGCGCCGAG406GCCGAGAAGAAGATCAAGGAAGCCGGTGGTGTCGTTCAGCTCGTCGCATA
T143C01868F (FHIG:C) Axenic plate culture Betula pendula cDNA 5', mRNA sequence.
CD277960.1:399-418
GTTGTTCGCGCCCGCTACGTCAGCGCCGAG399GCCGAGAAGAAGATCAAGGAAGCCGGTGGTGTCGTTCAGCTCGTCGCATA
T10_H02 Teliospore Ustilago maydis cDNA 5', mRNA sequence.
CD488532.1:430-449
ATCGTCAAGGCGCGCTGGGTGTCGTCGCTC430GCCGAGAAGAAGATCAAGGAGGCCGGTGGTGTTGTCAAGCTTGTTGCCTA
T13_C08 Teliospore Ustilago maydis cDNA 5', mRNA sequence.
CD488713.1:430-449
ATCGTCAAGGCGCGCTGGGTGTCGTCGCTC430GCCGAGAAGAAGATCAAGGAGGCCGGTGGTGTTGTCAAGCTTGTTGCCTA
T15_A01 Teliospore Ustilago maydis cDNA 5', mRNA sequence.
CD488828.1:424-443
ATCGTCAAGGCGCGCTGGGTGTCGTCGCTC424GCCGAGAAGAAGATCAAGGAGGCCGGTGGTGTTGTCAAGCTTGTTGCCTA
T15_F02 Teliospore Ustilago maydis cDNA 5', mRNA sequence.
CD488875.1:430-449
ATCGTCAAGGCGCGCTGGGTGTCGTCGCTC430GCCGAGAAGAAGATCAAGGAGGCCGGTGGTGTTGTCAAGCTTGTTGCCTA
T35_G05 Teliospore Ustilago maydis cDNA 5', mRNA sequence.
CD490299.1:430-449
ATCGTCAAGGCGCGCTGGGTGTCGTCGCTC430GCCGAGAAGAAGATCAAGGAGGCCGGTGGTGTTGTCAAGC
RADIC01_000157 Grape Root pSPORT1 Library Vitis vinifera cDNA 5', mRNA sequence.
CF604668.1:460-479
GTCGTGAAGGCCAAGCTCGTCTCTAAGATA460GCCGAGAAGAAGATCAAGGAAGCCGGTGGTGCCGTTG
RADIC01_000455 Grape Root pSPORT1 Library Vitis vinifera cDNA 5', mRNA sequence.
CF604920.1:465-484
GTCGTGAAGGCCAAGCTCGTCTCTAAGATA465GCCGAGAAGAAGATCAAGGAAGCCGGTGGTGCCGTTGTTCTCACCGCCTA
RADIC01_001026 Grape Root pSPORT1 Library Vitis vinifera cDNA 5', mRNA sequence.
CF605378.1:466-485
GTCGTGAAGGCCAAGCTCGTCTCTAAGATA466GCCGAGAAGAAGATCAAGGAAGCCGGTGGTGCCGTTGTTCTCACCGCCTA
GEMMA01_000044 Grape Bud pSPORT1 Library Vitis vinifera cDNA 5', mRNA sequence.
CF606660.1:436-455
GTCGTGAAGGCCAAGCTCGTCTCTAAGATA436GCCGAGAAGAAGATCAAGGAAGCCGGTGGTGCCGTTGTTCTCACCGCCTA
TSA: Arachis hypogaea CL1Contig2421.Arhy mRNA sequence.
EZ723405.1:437-456
GTCGTCAAGGCTAAGCTTATTTCCAAGGTC437GCCGAGAAGAAGATCAAGGAGAACGGTGGCGCCGTCCTTCTCACCGCTTA
TSA: Arachis hypogaea CL1Contig9134.Arhy mRNA sequence.
EZ730118.1:543-562
GTCGTCAAGGCTAAGCTTATTTCCAAGGTC543GCCGAGAAGAAGATCAAGGAGAACGGTGGCGCCGTCCTTCTCACCGCTTA
TSA: Soil metagenome mRNA, contig: MTC33826.
FX033826.1:31-50
ATCGTTCGCACCCGTTTCGTCTCTCGTCTT31GCCGAGAAGAAGATCAAGGAAGCTGGTGGTGTTGTTGAGCTCATTGCTTA
TSA: Soil metagenome mRNA, contig: MTC37703.
FX037703.1:31-50
ATCGTTCGCACCCGTTTCGTCTCTCGTCTT31GCCGAGAAGAAGATCAAGGAAGCTGGTGGTGTTGTTGAGCTCATTGCTTA
TSA: Soil metagenome mRNA, contig: MTC55624.
FX055624.1:31-50
ATCGTTCGCACCCGTTTCGTCTCTCGTCTT31GCCGAGAAGAAGATCAAGGAAGCTGGTGGTGTTGTTGAGCTCATTGCTTA
TSA: Pandanus boninensis mRNA, contig: Pb_c7364.
FX169114.1:183-202
GTGGTCAAGGCCAAGCTCGTGTCGAAGATC183GCCGAGAAGAAGATCAAGGAGGCCGGCGGCGCTGTGCTCCTCACAGCCTG
TSA: Pyrus communis mRNA, contig: lc538.
FX609125.1:660-679
GTGGTGAAGGCCAAGCTGATTTCAAAGACT660GCCGAGAAGAAGATCAAGGAGGCTGGTGGCGCCGTCGTGCTCACCGCTTA
TSA: Pyrus communis mRNA, contig: lc760.
FX609347.1:477-496
GTAGTGAAGGCCAAGCTGATCTCAAAGACC477GCCGAGAAGAAGATCAAGGAGGCCGGTGGCGCCGTCGTGCTCACCGCTTA
TSA: Pyrus communis mRNA, contig: lc12334.
FX620913.1:353-372
GTGGTGAAGGCCAAGCTGATTTCAAAGACT353GCCGAGAAGAAGATCAAGGAGGCTGGTGGCGCCGTCGTGCTCACCGCTTA
TSA: Pyrus communis mRNA, contig: lc34712.
FX642540.1:353-372
GTAGTGAAGGCCAAGCTGATCTCAAAGACC353GCCGAGAAGAAGATCAAGGAGGCCGGTGGCGCCGTCGTGCTCACCGCTTA
TSA: Pyrus communis mRNA, contig: lc40387.
FX647694.1:364-383
GTGGTGAAGGCCAAGCTGATTTCAAAGACT364GCCGAGAAGAAGATCAAGGAGGCTGGTGGCGCCGTCGTGCTCACCGCTTA
TSA: Arachis duranensis DurSNP_c750.Ardu mRNA sequence.
HP000749.1:458-477
GTCGTCAAGGCTAAGCTTATTTCCAAGGTC458GCCGAGAAGAAGATCAAGGAGAACGGTGGCGCCGTCCTTCTCACCGCTTA
TSA: Elaeis guineensis isotig08545.Elguifruit mRNA sequence.
JO095775.1:433-452
GTCGTGAAGGCCAAGCTCGTCTCCAAGATC433GCCGAGAAGAAGATCAAGGAGGCTGGCGGCGCCGTCGTGCTCACGGCCTG
TSA: Ipomoea batatas Contig_21958.Ipbalsr mRNA sequence.
JP126546.1:445-464
GTGGTGAAGGCTAAGCTCGTTTCGAAGATC445GCCGAGAAGAAGATCAAGGAGGCCGGGGGGGGC
TSA: Prunus avium Contig_8477.Pravbud mRNA sequence.
JP378918.1:188-207
GTTGTGAAGGCCAAGCTGATTTCTAAGACC188GCCGAGAAGAAGATCAAGGAGGCTGGTGGAGCCGTGGTGCTCACCGCTTA
TSA: Larix kaempferi PEMC12144.Lakaproemb mRNA sequence.
JR141789.1:551-570
GTAGTCAAGGCCAAGCTTGTTTCCAAGCTG551GCCGAGAAGAAGATCAAGGAGGCTGGCGGGGCAGTCATGTTGACTGCCTG
TSA: Larix kaempferi PEMC2296.Lakaproemb mRNA sequence.
JR153484.1:332-351
GTTGTGAAGGCCAAACTTATTTCTAAGTTG332GCCGAGAAGAAGATCAAGGAAGCAGGCGGGGCAGTCATGTTGACCGCCTG
TSA: Larix kaempferi PEMSGHTZF.Lakaproemb mRNA sequence.
JR177634.1:361-380
GTAGTCAAGGCCAAGCTTGTTTCCAAGCTG361GCCGAGAAGAAGATCAAGGAGGCTGGCGGGGCAGTCATGTTGACTGCCTG
TSA: Arachis stenosperma Astenosperma_pos_255627945_2 mRNA sequence.
JR327741.1:139-158
GTCGTCAAGGCTAAGCTTATTTCCAAGGTC139GCCGAGAAGAAGATCAAGGAGAACGGTGGCGCCGTCCTTCTCACCGCTTA
TSA: Rhynchophorus ferrugineus contig18531.Rhfeelpa mRNA sequence.
JR485994.1:443-462
GTCGTGAAGGCCAAGCTCGTCTCCAAGATC443GCCGAGAAGAAGATCAAGGAGGCTGGCGGGGCCGTCGTACTCACAGCCTG
TSA: Arachis hypogaea Ahy.Unigene24450 mRNA sequence.
JR564348.1:33-52
GTCGTCAAGGCTAAGCTTATTTCCAAGGTC33GCCGAGAAGAAGATCAAGGAGAACGGTGGCGCCGTCCTTCTCACCGCTTA
TSA: Cunninghamia lanceolata Unigene44239_C.lanceolata mRNA sequence.
JV004526.1:76-95
GTTGTCAAGGCCAAGCTAATTTCTAAACTG76GCCGAGAAGAAGATCAAGGAGGCTGGTGGAGCTGTTCTCCTGACGTCTTA
TSA: Abies alba contig27742.Aaseedling mRNA sequence.
JV138672.1:85-104
GTTGTGAAGGCCAAGCTTATTTCTAAGCTG85GCCGAGAAGAAGATCAAGGAGGCAGGCGGGGCAGTCATGTTGACCGCCTG
TSA: Chorispora bungeana CK_36772 mRNA sequence.
KA024839.1:575-594
GCTGAAGAAGAAGTGAAGAAGGAGATCGAA575GCCGAGAAGAAGATCAAGGAGGAAAAAGAGGAGATCTCGGAAGAGGAAGT
2510055 VV03 Ustilago maydis genomic clone 1076117, genomic survey sequence.
DX683909.1:264-283
ATCGTCAAGGCGCGCTGGGTGTCGTCGCTC264GCCGAGAAGAAGATCAAGGAGGCCGGTGGTGTTGTCAAGCTTGTTGCCTA
2510406 VV03 Ustilago maydis genomic clone 1076101, genomic survey sequence.
DX727620.1:264-283
ATCGTCAAGGCGCGCTGGGTGTCGACGCTC264GCCGAGAAGAAGATCAAGGAGGCCGGTGGTGTTGTCAAGCTTGCTGCCTA
Jalo EEP 558 Pv-1206 Phaseolus vulgaris Jalo EEP 558 young leaves genomic DNA Phaseolus vulgaris genomic, genomic survey sequence.
DX824050.1:261-280
GTCGTCAAGGCCAAGCTCGTCTCCAAGATC261GCCGAGAAGAAGATCAAGGAGGCTGGAGGCGCTGTTGTACTCACCGCTTG
PP_LBa0013-G06.R PP_LBa Prunus persica genomic 3', genomic survey sequence.
FI974890.1:264-283
GTTGTGAAGGCCAAGCTGATTTCTAAGACC264GCCGAGAAGAAGATCAAGGAGGCTGGCGGAGCCGTCGTGCTCACCGCTTA
GD_TBa158K01.R GD_TBa Glycine dolichocarpa genomic 3', genomic survey sequence.
HN410740.1:206-225
GTTGTCAATGCCAAGCTTATTTCCAAGATC206GCCGAGAAGAAGATCAAGGAGGCTGGCGGCACCGTTGTTATCACCGCTTG
GT_DBa063P11.F GT_DBa Glycine tomentella genomic 5', genomic survey sequence.
HN626415.1:12-31
ATTTCCAGATC12GCCGAGAAGAAGATCAAGGAGGCTGGCGGCACCGTTGTTATCACCGCTTG
GT_DBa131M05.R GT_DBa Glycine tomentella genomic 3', genomic survey sequence.
HN733055.1:181-200
GTTGTCAATGCCAAGCTTATTTCCAAGATC181GCCGAGAAGAAGATCAAGGAGGCTGGCGGCACCGTTGTTATCACCGCTTG
GF_Ba006M16.F GF_Ba Glycine falcata genomic 5', genomic survey sequence.
HR131616.1:29-48
CTGCAGGCATGCAGCTTATTTCCAGATC29GCCGAGAAGAAGATCAAGGAGGATGGTTCCGCCATTGTTCTCACCTATTG
Glycine max cDNA, clone: GMFL01-24-G04.
AK286229.1:450-469
GTCGTGAAGGCCAAGCTTGTTTCCAAGATC450GCCGAGAAGAAGATCAAGGAGGCCGGTGGAGCCGTCGTTCTCACCGCCTG
Oxyrrhis marina isolate Om-5p-14-1 ribosomal protein L27a mRNA, complete cds.
EF134332.1:452-471
ATCATCAAAGCCAAGCTGTTCAGCAAGCGC452GCCGAGAAGAAGATCAAGGATGCCGGTGGTGTCTGTGTGCTCCAGGCGTG
Oxyrrhis marina isolate Om-5p-14-2 ribosomal protein L27a mRNA, complete cds.
EF134333.1:444-463
ATCATCAAAGCCAAGCTGTTCAGCAAGCGC444GCCGAGAAGAAGATCAAGGATGCCGGTGGTGTCTGTGTGCTCCAGGCGTG
Hordeum vulgare subsp. vulgare mRNA for predicted protein, complete cds, clone: NIASHv1056H03.
AK357554.1:414-433
GTCGTCCGCGCCCGCTACTTCTCCGCCGAG414GCCGAGAAGAAGATCAAGGAGGCCGGCGGTGTTGTCCAGCTCGTCGCATA
Vigna angularis var. angularis DNA, chromosome 1, almost complete sequence, cultivar: Shumari.
AP015034.1:53780281-53780300
GTTGTGAAGGCCAAACTTGTCTCCAAGATC53780281GCCGAGAAGAAGATCAAGGAGGCCGGTGGAGCCGTTGTTCTCACCGCTTA
Soybean clone JCVI-FLGm-10K11 unknown mRNA.
BT092124.1:453-472
GTCGTGAAGGCCAAGCTTGTTTCCAAGATC453GCCGAGAAGAAGATCAAGGAGGCCGGTGGAGCCGTCGTTCTCACCGCCTG
Parastagonospora nodorum isolate Sn79-1087 chromosome 4, complete sequence.
CP022854.1:390397-390416
GTCGTCCGCGCTCGCTACGTCTCTGCCGAG390397GCCGAGAAGAAGATCAAGGAGGCTGGTGGTGTTGTCCAGCTCGTCGCATA
Arachis hypogaea cultivar Shitouqi chromosome A03.
CP030985.1:133085110-133085129
GTCGTCAAGGCTAAGCTTATTTCCAAGGTC133085110GCCGAGAAGAAGATCAAGGAGAACGGTGGCGCCGTCCTTCTCACCGCTTA
Arachis hypogaea cultivar Shitouqi chromosome B03.
CP030995.1:133951507-133951526
GTCGTCAAGGCTAAGCTTATTTCCAAGGTC133951507GCCGAGAAGAAGATCAAGGAGAACGGTGGCGCCGTCCTTCTCACCGCTTA
Papaver somniferum cultivar Roxanne chromosome 8.
CP048220.1:185285829-185285848
GTCTCACTTGAGAAGAAGGCGAAGCTTGCT185285829GCCGAGAAGAAGATCAAGGAGCTTGCTGAGGCTAAGTCAGGAAAAAGGCC
Arachis ipaensis cultivar K30076 chromosome 03.
CP049894.1:131679522-131679541
GTCGTCAAGGCTAAGCTTATTTCCAAGGTC131679522GCCGAGAAGAAGATCAAGGAGAACGGTGGCGCCGTCCTTCTCACCGCTTA
Stagonosporopsis rhizophila strain XDPOP-RS-16W chromosome 2.
CP068502.1:1740876-1740895
GTCGTCCGCGCCCGCTACTTCTCCGCCGAG1740876GCCGAGAAGAAGATCAAGGAGGCTGGCGGTGTTGTCCAGCTCGTCGCATA
Fulvia fulva strain Race5_Kim chromosome 6.
CP090168.1:2654251-2654270
CTTGAGCAAGCTGAGCAAGCAGCCAATACG2654251GCCGAGAAGAAGATCAAGGAGCTTGAGACCCAGCTGGCCGAGAAGGACGC
Wolffia australiana isolate 7733 chromosome 16.
CP092615.1:11909328-11909347
GTGGTCAAGGCCAAGCTGATCTCGAAGAAC11909328GCCGAGAAGAAGATCAAGGAGGCCGGGGGAGCTGTCGTTCTTACTGCTTG
Vitis rotundifolia cultivar Noble chromosome 14.
CP092939.1:22431457-22431476
GTCGTGAAGGCCAAGCTCGTCTCTAAGATA22431457GCCGAGAAGAAGATCAAGGAAGCCGGTGGTGCCGTTGTTCTCACCGCCTA
Ascochyta rabiei isolate Me14 chromosome 1.
CP095288.1:2089331-2089350
ATCGTCCGCGCCCGCTACTTCTCCGCCGAG2089331GCCGAGAAGAAGATCAAGGAGGCCGGCGGTGTTGTCCAGCTCGTCGCATA
Fulvia fulva strain 2 4 9 11 chromosome 6.
CP120820.1:2615959-2615978
CTTGAGCAAGCTGAGCAAGCAGCCAATACG2615959GCCGAGAAGAAGATCAAGGAGCTTGAGACCCAGCTGGCCGAGAAGGACGC
Fulvia fulva strain 2 4 5 9 11 IPO chromosome 6.
CP121178.1:2586028-2586047
CTTGAGCAAGCTGAGCAAGCAGCCAATACG2586028GCCGAGAAGAAGATCAAGGAGCTTGAGACCCAGCTGGCCGAGAAGGACGC
Vitis vinifera cultivar Pinot Noir 40024 chromosome 14.
CP126661.1:27281896-27281915
GTCGTGAAGGCCAAGCTCGTCTCTAAGATA27281896GCCGAGAAGAAGATCAAGGAAGCCGGTGGTGCCGTTGTTCTCACCGCCTA
Vitis x doaniana cultivar PI 588149 chromosome 14.
CP128322.1:27204566-27204585
GTCGTGAAGGCCAAGCTCGTCTCTAAGATA27204566GCCGAGAAGAAGATCAAGGAAGCCGGTGGTGCCGTTGTTCTCACCGCCTA
Vitis x doaniana cultivar PI 588149 chromosome 14.
CP128341.1:26935076-26935095
GTCGTGAAGGCCAAGCTCGTCTCTAAGATA26935076GCCGAGAAGAAGATCAAGGAAGCTGGTGGTGCCGTTGTTCTCACCGCCTA
Saururus chinensis isolate CL-2023b chromosome 6.
CP141145.1:25732946-25732965
GTCGTCAAGGCCAAGCTTGTGTCCAAGATC25732946GCCGAGAAGAAGATCAAGGAAGCCGGTGGCGCCGTGATTCTCACCGCCTA
Malus hybrid cultivar cultivar Royalty chromosome 17.
CP141969.1:1540582-1540601
GTGGTGAAGGCCAAGCTGATTTCAAAGACC1540582GCCGAGAAGAAGATCAAGGAGGCTGGTGGCGCCGTCGTGCTCACCGCTTA
Malus hybrid cultivar cultivar Royalty chromosome 17.
CP141986.1:1770185-1770204
GTGGTGAAGGCCAAGCTGATTTCAAAGACC1770185GCCGAGAAGAAGATCAAGGAGGCTGGTGGCGCCGTCGTGCTCACCGCTTA
Malus hybrid cultivar cultivar SH6 chromosome 9.
CP143366.1:2054519-2054538
GTGGTGAAGGCCAAGCTGATCTCAAAGACC2054519GCCGAGAAGAAGATCAAGGAGGCCGGTGGCGCCGTCGTGCTCACCGCTTA
Malus hybrid cultivar cultivar SH6 chromosome 17.
CP143374.1:1635517-1635536
GTGGTGAAGGCCAAGCTGATTTCAAAGACC1635517GCCGAGAAGAAGATCAAGGAGGCTGGTGGCGCCGTCGTGCTCACCGCTTA
Malus hybrid cultivar cultivar SH6 chromosome 17.
CP143391.1:1672293-1672312
GTGGTGAAGGCCAAGCTGATTTCAAAGACC1672293GCCGAGAAGAAGATCAAGGAGGCTGGTGGCGCCGTCGTGCTCACCGCTTA
Vitis vinifera cv. PN40024, annotated scaffold_66.assembly12x.
FN596252.1:528601-528620
GTCGTGAAGGCCAAGCTCGTCTCTAAGATA528601GCCGAGAAGAAGATCAAGGAAGCCGGTGGTGCCGTTGTTCTCACCGCCTA
Leptosphaeria biglobosa brassicae b35_scaffold00052 complete sequence.
FO905612.1:59562-59581
GTCGTCCGCGCCCGCTACGTCAGCGCCGAG59562GCCGAGAAGAAGATCAAGGAGGCTGGTGGTGTTGTCCAGCTCATCGCATA
Leptosphaeria maculans lepidii ibcn84_scaffold00002 complete sequence.
FO906022.1:1826054-1826073
GTCGTTCGCGCCCGCTACGTCAGCGCCGAG1826054GCCGAGAAGAAGATCAAGGAGGCCGGTGGTGTTGTCCAGCTCGTCGCATA
Leptosphaeria maculans brassicae jn3_SuperContig_25 complete sequence.
FO906082.1:133683-133702
GTCGTTCGCGCCCGCTACGTCAGCGCCGAG133683GCCGAGAAGAAGATCAAGGAGGCCGGCGGTGTTGTTCAGCTCGTCGCATA
Leptosphaeria maculans brassicae wa74_scaffold00832 complete sequence.
FO906254.1:158784-158803
GTCGTTCGCGCCCGCTACGTCAGCGCCGAG158784GCCGAGAAGAAGATCAAGGAGGCCGGCGGTGTTGTTCAGCTCGTCGCATA
Phyllostachys edulis cDNA clone: bphyst006g05, full insert sequence.
FP095749.1:465-484
GTCGTCAAGGCCAAGCTCATCTCCAAGGTC465GCCGAGAAGAAGATCAAGGAGGCCGGCGGCGCCGTCCTGCTCACCGCCTA
Leptosphaeria maculans JN3 lm_SuperContig_25_v2 genomic supercontig, whole genome, isolate v23.1.3.
FP929121.1:133683-133702
GTCGTTCGCGCCCGCTACGTCAGCGCCGAG133683GCCGAGAAGAAGATCAAGGAGGCCGGCGGTGTTGTTCAGCTCGTCGCATA
Vitis vinifera clone SS0AEB1YP06.
FQ389403.1:320-339
GTCGTGAAGGCCAAGCTCGTCTCTAAGATA320GCCGAGAAGAAGATCAAGGAAGCCGGTGGTGCCGTTGTTCTCACCGCCTA
Vitis vinifera clone SS0AEB18YL21.
FQ390095.1:320-339
GTCGTGAAGGCCAAGCTCGTCTCTAAGATA320GCCGAGAAGAAGATCAAGGAAGCCGGTGGTGCCGTTGTTCTCACCGCCTA
Secale cereale genome assembly, chromosome: 6R.
LR738714.1:103257164-103257183
CCGGCGAAGACAGTCATCCGCAAATGACTG103257164GCCGAGAAGAAGATCAAGGATGAGCCGCGGAGCCGGAGCCCTTTCACTCC
Spirodela intermedia genome assembly, chromosome: 3.
LR743590.1:5947904-5947923
ACCGCCTAATCAGCCTGAAAAGCTTAGATC5947904GCCGAGAAGAAGATCAAGGAAGCCGTCGGAAGTGGAGGCAGTCTTCCCTC
Spirodela intermedia genome assembly, chromosome: 5.
LR743592.1:2181159-2181178
GTCGTGAAGGCCAAGCTTATTTCCAAGAAC2181159GCCGAGAAGAAGATCAAGGAGGCTGGAGGTGCCGTCGTCCTCACTGCCTG
Spirodela intermedia genome assembly, chromosome: 3.
LR746266.1:5751663-5751682
ACCGCCTAATCAGCCTGAAAAGCTTAGATC5751663GCCGAGAAGAAGATCAAGGAAGCCGTCGGAAGTGGAGGCAGTCTCCCTCT
Spirodela intermedia genome assembly, chromosome: 5.
LR746268.1:2163897-2163916
GTCGTGAAGGCCAAGCTTATTTCCAAGAAC2163897GCCGAGAAGAAGATCAAGGAGGCTGGAGGTGCCGTCGTCCTCACTGCCTG
Ustilago bromivora strain UB2112 genome assembly, chromosome: VIII.
LT558124.1:214794-214813
ATCGTCAAGGCTCGTTGGGTCTCGTCGCTC214794GCCGAGAAGAAGATCAAGGAGGCTGGCGGTGTTGTCAAGCTCGTTGCCTA
Fraxinus pennsylvanica genome assembly, chromosome: 3.
OU503038.1:1995925-1995944
GTGGTGAAAGCCAAGCTCGTGTCGAAGATT1995925GCCGAGAAGAAGATCAAGGAAGCTGGTGGAGCTGTCGTCCTCACTGCTTA
Malus sylvestris genome assembly, chromosome: 17.
OU696519.1:1625834-1625853
GTGGTGAAGGCCAAGCTGATTTCAAAGACC1625834GCCGAGAAGAAGATCAAGGAGGCTGGTGGCGCCGTCGTGCTCACCGCTTA
Malus domestica genome assembly, chromosome: 17.
OU696693.1:1635790-1635809
GTGGTGAAGGCCAAGCTGATTTCAAAGACC1635790GCCGAGAAGAAGATCAAGGAGGCTGGTGGCGCCGTCGTGCTCACCGCTTA
Malus domestica genome assembly, chromosome: 17.
OU744558.1:1698364-1698383
GTGGTGAAGGCCAAGCTGATTTCAAAGACC1698364GCCGAGAAGAAGATCAAGGAGGCTGGTGGCGCCGTCGTGCTCACCGCTTA
Malus domestica genome assembly, chromosome: 17.
OU744969.1:1690855-1690874
GTGGTGAAGGCCAAGCTGATTTCAAAGACC1690855GCCGAGAAGAAGATCAAGGAGGCTGGTGGCGCCGTCGTGCTCACCGCTTA
Malus domestica genome assembly, chromosome: 17.
OU745007.1:1810949-1810968
GTGGTGAAGGCCAAGCTGATTTCAAAGACC1810949GCCGAGAAGAAGATCAAGGAGGCTGGTGGCGCCGTCGTGCTCACCGCTTA
Chionographis japonica genome assembly, chromosome: 5.
OX393553.1:17810428-17810447
CCGGAGGTGGTAGCACTCACGGTGGAGGAG17810428GCCGAGAAGAAGATCAAGGAGGATATGCCGACCGTTCACATCGAAGTCAT
Sambucus nigra genome assembly, chromosome: 6.
OX422212.1:399640662-399640681
GTTGTCAAAGCAAAACTCATTTCCAAAACC399640662GCCGAGAAGAAGATCAAGGAGGCCGGTGGTGCTGTTTTGCTTACTGCCTA
Sambucus nigra genome assembly, chromosome: 8.
OX422214.1:337215690-337215709
GCCAAAGCAGCCATAAAAGCTCAGAAGGAA337215690GCCGAGAAGAAGATCAAGGAAATTATTATATCATTTTTTCTCTTTTCTGA
Scutellaria minor genome assembly, chromosome: 11.
OX940735.1:2904549-2904568
GTGGTGAAGGCGAAGCTCGTGTCTAAGAAT2904549GCCGAGAAGAAGATCAAGGAGGCTGGTGGTGCTGTGGTGCTCACTGCTTA
Acer campestre genome assembly, chromosome: 5.
OX940803.1:10536022-10536041
GTCGTGAAGGCGAAGTTGGTATCCAAGACT10536022GCCGAGAAGAAGATCAAGGAGGCTGGTGGGGCTGTTGTTCTTACCGCTTA
Euphrasia confusa genome assembly, chromosome: 8.
OX940956.1:39257381-39257400
GTGGTGAAGGCGAAGCTCATCTCGAAGACC39257381GCCGAGAAGAAGATCAAGGAAGCCGGTGGTGCCGTTGTGCTCACTGCCTA
Euphrasia confusa genome assembly, chromosome: 20.
OX940968.1:2590349-2590368
GTCGTCAGGGCGAAGCTCGTCTCGAAGAAC2590349GCCGAGAAGAAGATCAAGGAGGCCGGCGGCGCCGTTCTGCTCACTGCCTA
Rosa rugosa genome assembly, chromosome: 1.
OY288191.1:70853241-70853260
GTTGTGAAGACCAAGCTGATCTCCAAGGTC70853241GCCGAGAAGAAGATCAAGGAGGCTGGTGGCGCCGTCGTGCTCACCGCCTA
Hibiscus tridactylites genome assembly, chromosome: 19.
OY288283.1:32891643-32891662
GTTGTCAAGGCTAAGTTGGTGTCGAAGACT32891643GCCGAGAAGAAGATCAAGGAGGCCGGTGGTGCTGTTGTGCTCACCGCTTA
Inga oerstediana genome assembly, chromosome: 1.
OY723399.1:16253873-16253892
GTTGTGAAGGCCAAGCTCATCTCCAAGAAT16253873GCCGAGAAGAAGATCAAGGAGGCTGGAGGAGCTGTTGTCCTCACTGCTTA
Inga oerstediana genome assembly, chromosome: 12.
OY723410.1:4768779-4768798
GTTGTGAAGGCCAAGCTTGTGTCCAAGATT4768779GCCGAGAAGAAGATCAAGGAGGCTGGGGGAGCTGTTGTCCTTACTGCTTA
Inga leiocalycina genome assembly, chromosome: 1.
OY725320.1:16379513-16379532
GTTGTGAAGGCCAAGCTCATCTCCAAGAAT16379513GCCGAGAAGAAGATCAAGGAGGCTGGAGGAGCTGTTGTCCTCACTGCTTA
Inga leiocalycina genome assembly, chromosome: 12.
OY725331.1:4786796-4786815
GTTGTGAAGGCCAAGCTTGTGTCCAAGATT4786796GCCGAGAAGAAGATCAAGGAGGCTGGGGGAGCTGTTGTCCTTACTGCTTA
Sphenostylis stenocarpa genome assembly, chromosome: 3.
OY731400.1:96869456-96869475
GTTGTGAAGGCCAAACTTGTCTCCAAGATT96869456GCCGAGAAGAAGATCAAGGAGGCAGGTGGGGCCGTTGTTCTCACCGCTTA
Sphenostylis stenocarpa genome assembly, chromosome: 9.
OY731406.1:39679388-39679407
GTAGTCAAAGCCAAGCTCGTCTCCAAGATC39679388GCCGAGAAGAAGATCAAGGAGGCCGGAGGCGCCATTGTTCTTACCGCTTG
Ligustrum vulgare genome assembly, chromosome: 6.
OY743173.1:4429730-4429749
GTCGTGAAAGCCAAGCTCGTGTCGAAGATT4429730GCCGAGAAGAAGATCAAGGAAGCTGGTGGAGCTGTCGTCCTAACTGCTTA
Euphorbia lathyris genome assembly, chromosome: 5.
OY755224.1:17277506-17277525
GTAGTCAAGGCCAAACTTATTTCCAAGATC17277506GCCGAGAAGAAGATCAAGGAGGCTGGTGGAGCTGTCGTTCTTACTGCTTA
Crataegus laevigata genome assembly, chromosome: 8.
OY756945.1:1891476-1891495
GTGGTGAAGGCCAAGCTGATTTCAAAAACC1891476GCCGAGAAGAAGATCAAGGAGGCTGGTGGCGCCGTCGTGCTCACCGCTTA
Crataegus laevigata genome assembly, chromosome: 15.
OY756952.1:9326114-9326133
GTGGTGAAGGCCAAGCTGATCTCAAAGACT9326114GCCGAGAAGAAGATCAAGGAGGCCGGTGGCGCCGTCGTGCTCACCGCTTA
Crataegus laevigata genome assembly, chromosome: 16.
OY756953.1:7067200-7067219
GTGGTGAAGGCCAAGCTGATCTCAAAGACT7067200GCCGAGAAGAAGATCAAGGAGGCCGGTGGCGCCGTCGTGCTCACCGCTTA
Erodium maritimum genome assembly, chromosome: 7.
OY997594.1:19947321-19947340
GTGCTGAAGGCTAAGCTTGTGTCGAAAACC19947321GCCGAGAAGAAGATCAAGGAGGCCGGTGGTGCTGTGGTGCTCACTGCTTA
Polygonum maritimum genome assembly, chromosome: 10.
OZ002737.1:193579-193598
GTTGTCAAGGCCAAGCTCATCTCCAAAACC193579GCCGAGAAGAAGATCAAGGAGGCCGGTGGTGCCGTCCTTCTCACCGCTTA
Myrica gale genome assembly, chromosome: 16.
OZ005613.1:10260848-10260867
TTAGTTAAGGCAAAGCTTGTTTCCAAGATT10260848GCCGAGAAGAAGATCAAGGAGGCCGGTGGGGTCGTGGTTCTCACTGCTTA
Myrica gale genome assembly, chromosome: 20.
OZ005617.1:16479339-16479358
GTAGTTAAGGCAAAGCTTGTCTCCAAGATT16479339GCCGAGAAGAAGATCAAGGAGGCCGGTGGGGCCGTGGTTCTCACTGCTTA
Celeribacter ethanolicus strain TSPH2 chromosome, complete genome.
CP022196.1:2054804-2054823
CTCGACGGCCAATGGGCCGAACCCGTTGCC2054804GCCGAGAAGAAGATCAAGGAAAAGGCCGCCGAAAAAGGCGTTGCCGTTTC
Pectinaria gouldii ribosomal protein L27a mRNA, complete cds.
AY853171.1:402-421
ATCGTAAAGGCCAAGTTCTTCAGCAAGCAG402GCCGAGAAGAAGATCAAGGATGTCGGAGGTGCCTGTGTCCTTATTGCCTA
Grapholita molesta isolate lab01 chromosome gm03.
CP053122.1:6846710-6846729
ATCGTCAAGGCCAAGTTCTTCTCGAAAACG6846710GCCGAGAAGAAGATCAAGGAGGTGGGAGGCGTATGCGTCCTATCTGCGTA
Cryptosporidium sp. chipmunk genotype II isolate ID-1985 heat shock protein gene, partial cds.
KC954244.1:1608-1627
GAGAAGCTCTCCCAATCTGAGATTGACGAG1608GCCGAGAAGAAGATCAAGGATGCCCTCGACTGGCTCGAGCACAACCAGAC
Cryptosporidium sp. chipmunk genotype II isolate HR-2038 heat shock protein gene, partial cds.
KC954245.1:1608-1627
GAGAAGCTCTCCCAATCTGAGATTGACGAG1608GCCGAGAAGAAGATCAAGGATGCCCTCGACTGGCTCGAGCACAACCAGAC
Cryptosporidium sp. chipmunk genotype II isolate ID-2165 heat shock protein gene, partial cds.
KC954246.1:1433-1452
GAGAAGCTCTCCCAATCTGAGATTGACGAG1433GCCGAGAAGAAGATCAAGGATGCCCTCGACTGGCTCGAGCACAACCAGAC
Cryptosporidium sp. chipmunk genotype II isolate GM-2688 heat shock protein gene, partial cds.
KC954247.1:1608-1627
GAGAAGCTCTCCCAATCTGAGATTGACGAG1608GCCGAGAAGAAGATCAAGGATGCCCTCGACTGGCTCGAGCACAACCAGAC
Cryptosporidium sp. chipmunk genotype II isolate GM-2690 heat shock protein gene, partial cds.
KC954248.1:1608-1627
GAGAAGCTCTCCCAATCTGAGATTGACGAG1608GCCGAGAAGAAGATCAAGGATGCCCTCGACTGGCTCGAGCACAACCAGAC
Cryptosporidium sp. chipmunk genotype II isolate ID-3135 heat shock protein gene, partial cds.
KC954249.1:1602-1621
GAGAAGCTCTCCCAATCTGAGATTGACGAG1602GCCGAGAAGAAGATCAAGGATGCCCTCGACTGGCTCGAGCACAACCAGAC
Cryptosporidium sp. chipmunk genotype II isolate ID-3168 heat shock protein gene, partial cds.
KC954251.1:1245-1264
GAGAAGCTCTCCCAATCTGAGATTGACGAG1245GCCGAGAAGAAGATCAAGGATGCCCTCGACTGGCTCGAGCACAACCAGAC
Cryptosporidium sp. chipmunk genotype II isolate H-3181 heat shock protein gene, partial cds.
KC954252.1:1245-1264
GAGAAGCTCTCCCAATCTGAGATTGACGAG1245GCCGAGAAGAAGATCAAGGATGCCCTCGACTGGCTCGAGCACAACCAGAC
Apotomis turbidana genome assembly, chromosome: 6.
LR990286.1:22711457-22711476
ATCGTCAAGGCTAAGTTCTTCTCGAAAACG22711457GCCGAGAAGAAGATCAAGGATGTTGGAGGCGTTTGCGTCCTGTCCGCGTA
Cryptosporidium sp. vole genotype V isolate 23409 heat shock protein 70 (HSP70) gene, partial cds.
MH145325.1:1609-1628
GAGAAGCTCTCTCAATCTGAGATAGATGAG1609GCCGAGAAGAAGATCAAGGAGGCTCTTGACTGGCTCGAGCATAACCAAAC
Apotomis betuletana genome assembly, chromosome: 5.
OW026303.1:21717672-21717691
ATCGTAAAGGCTAAGTTCTTCTCGAAAACG21717672GCCGAGAAGAAGATCAAGGATGTTGGAGGCGTCTGCGTCCTGTCCGCGTA
Pandemis cinnamomeana genome assembly, chromosome: 5.
OW028707.1:12611650-12611669
ATTGTCAAAGCCAAGTTCTTCTCAAAAACG12611650GCCGAGAAGAAGATCAAGGACGTCGGCGGCGTTTGCGTCCTGTCTGCGTA
Oscheius onirici genome assembly, chromosome: I.
OW051468.1:3495335-3495354
CCGGAGAAGGGAGAACAGATTCCGGACTCG3495335GCCGAGAAGAAGATCAAGGAGAAGAAGACGAAGCCGAAGAGGGAAAAGAT
Epinotia bilunana genome assembly, chromosome: 4.
OX346256.1:7650716-7650735
ATCGTCAAAGCCAAGTTCTTCTCGAAAACA7650716GCCGAGAAGAAGATCAAGGATGTTGGAGGCGTGTGCGTCTTGTCTGCGTA
Hofmannophila pseudospretella genome assembly, chromosome: 5.
OX376316.1:11971112-11971131
ATAGTGAAGGCCAAATACTTCTCAAAAACA11971112GCCGAGAAGAAGATCAAGGATGTCGGTGGCGTGTGCGTGCTGTCTGCGTA
Acleris cristana genome assembly, chromosome: 6.
OX411778.1:14432543-14432562
ATCGTCAAAGCCAAGTTCTTCTCAAAGACG14432543GCCGAGAAGAAGATCAAGGATGTGGGCGGTGTGTGCGTCCTTTCTGCGTA
Acleris holmiana genome assembly, chromosome: 6.
OX438768.1:17423063-17423082
ATCGTCAAAGCCAAGTTCTTCTCGAAGACG17423063GCCGAGAAGAAGATCAAGGATGTGGGTGGCGTGTGCGTCCTGTCTGCGTA
Metalampra italica genome assembly, chromosome: 5.
OX452974.1:9943477-9943496
ATAGTGAAAGCTAAATACTTCTCAAAAACT9943477GCCGAGAAGAAGATCAAGGATGTTGGCGGTGTGTGTGTGCTGTCGGCGTA
Clepsis dumicolana genome assembly, chromosome: 1.
OY829506.1:13938113-13938132
ATCGTCAAAGCCAAGTTCTTCTCAAAAACG13938113GCCGAGAAGAAGATCAAGGACGTCGGCGGCGTTTGCGTCCTGTCTGCGTA
Acleris laterana genome assembly, chromosome: 4.
OZ014442.1:15440772-15440791
ATCGTCAAAGCCAAGTTCTTCTCAAAGACG15440772GCCGAGAAGAAGATCAAGGATGTCGGCGGTGTGTGCGTCCTGTCAGCGTA

Data Export:

Maximum 100000 results can be retrieved in various formats shown below:

Debug Info:

Redirect URI : https://gggenome.dbcls.jp/en/ddbj/GCCGAGAAGAAGATCAAGGA
lang : en | db : ddbj | k : 0 | strand : | nogap : | query_string : GCCGAGAAGAAGATCAAGGA | format : html | download : | debug : 

0.009 | 0.009 | search_start;
3.745 | 3.736 | search_plus_done; http://172.18.8.135:50400/match?q=GCCGAGAAGAAGATCAAGGA&k=0&no_gap=0&offset=0&limit=50
3.915 | 0.170 | search_minus_done; http://172.18.8.135:50400/match?q=TCCTTGATCTTCTTCTCGGC&k=0&no_gap=0&offset=0&limit=0
3.915 | 0.000 | cgi_end;

GGGenome by @meso_cacase at DBCLS
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